CN105316863B - Sinking piece, sinking device and control method of sinking piece - Google Patents

Abstract

The invention relates to a sinking piece of a tubular stocking machine, a sinking device and a control method. The sinking piece is used for controlling a latch needle of the tubular stocking machine and comprises a piece body I and a piece body II which are mutually connected and extend in a radial direction along a needle cylinder respectively; in the radial direction, the piece body I and the piece body II can reciprocate relative to the needle cylinder separately or together; the piece body I is located on the opposite outside of the piece body II; the invention further discloses the sinking device using the sinking piece and the control method of the sinking piece. The sinking piece, the sinking device and the control method of the sinking piece have the advantages that the flexibility of the sinking piece can be improved, the moving paths of the sinking piece and the corresponding latch needle can be controlled more accurately, the tubular stocking machine can knit various flexible patterns, and a better application valve can be created.

Description

Sinker, sedimentation device and its control method

Technical field

The application is the divisional application of the application for a patent for invention for Application No. 201410400825.2, the present invention relates to For the sinker of tubular stocking machine, sedimentation device and control method, more particularly to a kind of sinker, the sinker has can be separated Two lamellar bodies；A kind of sedimentation device, is provided with the sedimentation device and is exclusively used in the track triangle I for controlling above-mentioned sinker；Together When further relate to a kind of control method of above-mentioned sinker.

Background technology

Sinker is a kind of accessory of textile machinery, and sinker is generally rustless steel sheet metal component.In Single cylinder circular hosiery machine, Sinker is made radially to pass in and out between latch needles, and its effect is held loop when moving back circle, and coil is pulled after lopping.Lean on during lopping Syringe needle determines loop length with a distance from plane on sinker.In prior art, sinker is typically by sitch cam control , the movement of the TRAJECTORY CONTROL sinker formed by sitch cam.But sitch cam needs to undertake holding for coil in itself Hold and drawing action, it is impossible to further sinker is controlled, the action that can be completed of sinker is more single, greatly Limit the range of application of hosiery machine.

In view of this, it is necessary to develop a kind of sinker with new structure that can carry out more actions and sedimentation Device.

The content of the invention

The present invention is directed in prior art, and the uncontrollable sinker of sitch cam carries out the shortcoming of complex action, The sedimentation device obtained there is provided a kind of new sinker with isolating construction and using this kind of sinker, and provide A kind of method for controlling above-mentioned sinker, said apparatus and method can actually reach the raising sinker action to be completed Complexity purpose.

For achieving the above object, the present invention can take following technical proposals：

A kind of sinker, for controlling the latch needles of tubular stocking machine, including the lamellar body I and lamellar body II that are connected with each other；

The lamellar body I and lamellar body II extends respectively along the radial direction of syringe；It is described in the radial direction, described Body I and lamellar body II can reciprocatingly move separately or together with respect to syringe；The lamellar body I is located at the relative of the lamellar body II Outside.

In embodiments of the invention, the lamellar body I includes a rail slider I；The rail slider I is along positioned at circle Track I on the sedimentation annulus of hosiery machine slides and drives lamellar body I to move along the radial direction.

In embodiments of the invention, the lamellar body I and lamellar body II are by the chute that is arranged on lamellar body I or lamellar body II It is slidably connected.

In embodiments of the invention, also including elasticity reset device；

The two ends of the elasticity reset device connect respectively lamellar body I and lamellar body II, for applying one on lamellar body II Towards the active force of lamellar body I.

In embodiments of the invention, the lamellar body II includes rail slider II；The rail slider II is along positioned at circle Track II on the sedimentation annulus of hosiery machine slides, and drives lamellar body II to move along the radial direction.

A kind of sedimentation device using above-mentioned sinker, also including sedimentation annulus；

Circumferential direction arrangement of the sinker along the sedimentation annulus；

The track triangle I for controlling the sliding trace of rail slider I is provided with the sedimentation annulus；

The track triangle I includes that is used for the guiding that guide rail slide block I is moved towards the direction of the lamellar body II Face I, the spigot surface I are the side protruded towards the lamellar body II along the radial direction of the track triangle I.

In embodiments of the invention, the track triangle I also includes spigot surface II；

The spigot surface II be located at track triangle I the side for being directed away from syringe direction, and along or approximately along The circumferential direction of syringe extends.

A kind of sedimentation device using above-mentioned sinker, also including sedimentation annulus；

Circumferential direction arrangement of the sinker along the sedimentation annulus；

The track triangle II for controlling the sliding trace of rail slider II is provided with the sedimentation annulus；

The track triangle II includes that is used for the spigot surface that guide rail slide block II is moved along the radial direction III。

A kind of sinker control method, including step in detail below：

1) when the sinker moves adjacent to one end of track triangle I along the circumferential direction of syringe, the lamellar body I Radial direction along syringe is pushed into the entrance of track I and drives lamellar body II to move, and the rail slider I is directed at the rail The entrance of road I, the entrance of the track I refers to one end towards lamellar body I of spigot surface I；

2) sinker continues on the circumferential direction movement of syringe, and rail slider I is pushed away under the promotion of spigot surface I The radial direction of syringe that moving plate body I continues on is moved and drives lamellar body II to move towards the direction of close syringe；

3) after rail slider I crosses the peak of spigot surface I, lamellar body I and lamellar body II are separated, rail slider II along Spigot surface III is moved and is promoted lamellar body II to continue to move to.

In embodiments of the invention, also include：

When the sinker moves adjacent to one end of track triangle I along the circumferential direction of syringe, the track sliding Block I is along spigot surface II until sinker crosses the track triangle I.

The present invention has following notable technique effect：

Detached lamellar body I and lamellar body II can be moved separately or together, retain sinker it is original gripping and On the basis of drawing action, it is possible to achieve more increasingly complex actions, be included in syringe carry out 360 ° rotation during, choosing An arbitrary segment distance is selected, makes what sinker can be temporary transient to exit currently performed action.

Further, track triangle is increased on sedimentation annulus, for the movement of control settlement piece, with existing kinking Triangle is coordinated, and can preferably complete the action of series of complex, improves the application of hosiery machine.

Description of the drawings

Fig. 1 is sedimentation device by the oblique overall structure diagram observed.

Fig. 2 is the mplifying structure schematic diagram of sinker.

Fig. 3 is the mplifying structure schematic diagram at the A of Fig. 1.

Specific embodiment

With reference to embodiment, the present invention is described in further detail.

Embodiment 1

A kind of sinker, as shown in Figure 1, 2, for controlling the latch needles of tubular stocking machine, including the lamellar body I100 being connected with each other with And lamellar body II200, additionally, also include existing in any existing sinker on sinker, control latch needles shape or Structure.

The lamellar body I100 and lamellar body II200 extends respectively along the radial direction of syringe；It is described in the radial direction, The lamellar body I100 and lamellar body II200 can reciprocatingly move separately or together with respect to syringe；The lamellar body I100 is located at The opposite exterior lateral sides of the lamellar body II200.

Further, in order to the movement of good control lamellar body I100, the lamellar body I100 includes a rail slider I110, as shown in figure 3, rail slider I110 is usually located at lamellar body I100 lower sections, and towards the track below lamellar body I100 I300 protrude, rail slider I110 can be fixedly attached on lamellar body I100 by various suitable connected modes, or A part of lamellar body I100.Used as a kind of preferred version, rail slider I110 is in the track triangle being arranged on sedimentation annulus The lower movement of I710 guiding, typically, sedimentation annulus can be referred to as raw gram of cover again, or the function that arranges around syringe and The similar device of raw gram of cover and；The rail slider I110 slides along the track I300 on the sedimentation annulus of tubular stocking machine And drive lamellar body I100 to move along the radial direction.

The link position of lamellar body I100 and lamellar body II200 is located at the middle part of whole sinker, to improve stablizing for sinker Property.It is close to the corresponding side of lamellar body II200 at least a portion side of lamellar body I100, it is ensured that lamellar body I100 and lamellar body II200 can be maintained at moving in the radial direction for syringe during relative movement, all the time, it is also possible to reduce whole Individual sinker, particularly vibrations of the lamellar body II200 in moving process.Further, lamellar body II200 can be arranged on whole heavy The front of the relative lamellar body I100 of the rotation direction of drop piece.Cross lamellar body I100 and lamellar body II200 in the extension of lamellar body I100 Link position and continue to extend to form extension to syringe direction, using the effect of the extension of lamellar body I100, make lamellar body I100 can remain and be close to that reduction is trembled with lamellar body II200.

Further, rail slider I110 include two with following track triangle I710 contact surfaces, contact surface I111 with And contact surface II112, wherein, contact surface I111 for the outer lateral side of rail slider I110 a part, itself and spigot surface II712 Contact；Contact surface II112 is a part for the inner side surface of rail slider I110, and it contacts with spigot surface I711.It is special Part is that contact surface II112 is an inclined-plane, can play and reduce itself and the friction between spigot surface I711.

Embodiment 2

Sinker as described in above-mentioned embodiment 1, its difference is that the lamellar body I100 and lamellar body II200 leads to Cross the chute 400 being arranged on lamellar body I100 or lamellar body II200 to be slidably connected.

Embodiment 3

Sinker as described in above-mentioned embodiment, its difference is that sinker also includes elasticity reset device；Should Elasticity reset device can realize its function using existing spring or other similar elastic devices.

The two ends of the elasticity reset device connect respectively lamellar body I100 and lamellar body II200, in lamellar body II200 Apply an active force towards lamellar body I100.Alternatively, the effect of elasticity reset device is only limitted to make lamellar body II200 can quickly return back to the initial position against lamellar body I100, while lamellar body II200 can also be reduced with sedimentation annulus The friction of the side wall of 700 triangle, is reduced due to separating the unstable phenomenons such as trembling of being brought with lamellar body I100.

Embodiment 4

Sinker as described in above-mentioned embodiment, its difference is that the lamellar body II200 includes rail slider II210；The rail slider II210 slides along the track II600 on the sedimentation annulus of tubular stocking machine, and drives lamellar body II200 is moved along the radial direction.

Embodiment 5

A kind of sedimentation device of the sinker described in use above-described embodiment, as shown in Figure 1,3, in addition to sinker, Also include sedimentation annulus 700；

Circumferential direction arrangement of the sinker along the sedimentation annulus 700；

The track triangle I710 for controlling the sliding trace of rail slider I110 is provided with the sedimentation annulus 700；

The track triangle I710 includes that is used for a direction shiftings of the guide rail slide block I110 towards the lamellar body II200 Dynamic spigot surface I711, the spigot surface I711 are the track triangle I710 along the radial direction towards the lamellar body The side of II200 protrusions.

The track triangle I710 also includes spigot surface II712；

The spigot surface II712 is located at the side for being directed away from syringe direction of track triangle I710, and along or it is big The circumferential direction along syringe is caused to extend.

In order to accommodate the rail slider I110 of lamellar body I100, in the present embodiment and following examples, sinker Width is slightly wider, and the annular region of sinker includes two tracks, track I300 and track II600, and track I300 is by track three The outermost side wall of angle I710 and sedimentation annulus 700 is collectively forming, except track triangle I710 regions, other regions In, side wall is the uniform part for extending of circumferential direction along syringe, is reserved between side wall and the other parts of sedimentation annulus 700 The space for making rail slider I110 pass through is enough to, and forms track I300.Track II600 is located at the inner side of track I300, by rail Road triangle II720 and other triangle compositions, track II600 is real mainly by the motion track of restriction rail slider II210 Now control the purpose of lamellar body II200.

Further, it is additionally provided with track triangle III on sedimentation annulus 700.Track triangle III is located at adjacent spigot surface In the circumferential direction of the end of II712, when rail slider I110 is moved to the end of spigot surface II712 along spigot surface II712 Afterwards,

Embodiment 6

With above-described embodiment 5 analogously, the sedimentation device of the sinker described in a kind of use above-described embodiment, such as schemes 1st, shown in 3, also including sedimentation annulus 700；

Circumferential direction arrangement of the sinker along the sedimentation annulus 700；

The track triangle for controlling the sliding trace of rail slider II210 is provided with the sedimentation annulus 700 II720；

The track triangle II720 includes that one is used for what guide rail slide block II210 was moved along the radial direction Spigot surface III721.

Further, because track I300 and track II600 still need the space for taking sedimentation annulus 700, therefore, Rail slider II210 is arranged at the outermost of lamellar body II200, reduces the distance between track I300 and track II600, reduces The shift motion of lamellar body I100, reduces the volume of track triangle I710.

Embodiment 7

A kind of sinker control method, including step in detail below：

1 track triangle I710 is moved adjacent to along the circumferential direction of syringe when the sinker one end when, described Body I100 is pushed into the entrance of track I300 and drives lamellar body II200 to move along the radial direction of syringe, and the track sliding Block I110 is directed at the entrance of the track I300, the entrance of the track I300 refer to spigot surface I711 towards lamellar body I100's One end；

Sinker described in 2 continues on the circumferential direction movement of syringe, promotions of the rail slider I110 in spigot surface I711 Under, promote the radial direction that lamellar body I100 continues on syringe to move and drive lamellar body II200 to move towards the direction of close syringe It is dynamic；

3 spigot surface I711 is crossed as rail slider I110 peak after, lamellar body I100 and lamellar body II200 are separated, rail Road slide block II210 is moved along spigot surface III721 and is promoted lamellar body II200 to continue to move to.Further, in rail slider I110 is crossed after spigot surface I711, rail slider I110 spigot surface I711 guiding to, towards sedimentation annulus 700 outside To movement, now, lamellar body I100 is separated in the presence of rail slider I with lamellar body II200, and separation recited herein is referred to Lamellar body I100 and lamellar body II200 no longer together with move, lamellar body II200 continues on track in the presence of track triangle II720 II600 is moved, and lamellar body I100 is directed to the outermost of sedimentation annulus 700 then in the presence of spigot surface I711.Now, The effect of the elasticity reset device between lamellar body I100 and lamellar body II200 is maximum, can make full use of the bullet of elasticity reset device Property, reduce the friction between rail slider II210 and the side wall of track II600.

Further, sinker control method also includes：

When the sinker moves adjacent to one end of track triangle I710 along the circumferential direction of syringe, the track Slide block I110 is along spigot surface II712 until sinker crosses the track triangle I710.

In a word, presently preferred embodiments of the present invention, all equalizations made according to scope of the present invention patent be the foregoing is only Change and modification, should all belong to the covering scope of patent of the present invention.

Claims (2)

1. a kind of sinker control method, it is characterised in that including step in detail below：

1）When the sinker moves adjacent to track triangle I along the circumferential direction of syringe（710）One end when, lamellar body I （100）Radial direction along syringe is pushed into track I（300）Entrance and drive lamellar body II（200）It is mobile, and rail slider I（110）It is directed at the track I（300）Entrance, the track I（300）Entrance refer to spigot surface I（711）Towards lamellar body I（100）One end；

2）The sinker continues on the circumferential direction movement of syringe, rail slider I（110）In spigot surface I（711）Promotion Under, promote lamellar body I（100）The radial direction for continuing on syringe moves and drives lamellar body II（200）Towards the side of close syringe To movement；

3）As rail slider I（110）Cross spigot surface I（711）Peak after, lamellar body I（100）With lamellar body II（200）Phase point From rail slider II（210）Along spigot surface III（721）Move and promote lamellar body II（200）Continue to move to.

2. sinker control method according to claim 1, it is characterised in that also include：

When the sinker moves adjacent to track triangle I along the circumferential direction of syringe（710）One end when, the track sliding Block I（110）Along spigot surface II（712）Until sinker crosses the track triangle I（710）.